KR20050078873A - Blower of vacuum cleaner - Google Patents

Abstract

The blower of the cleaner according to the present invention comprises a fan consisting of a plurality of feathers, and a diffuser path installed at a predetermined interval on the radially outer circumference of the fan, wherein the feather of the fan is the center of the fan in the height direction. There is a portion formed in the radial direction shorter than the outer diameter of the fan, the feather of the fan is symmetrical in the height direction, the minimum length of the feather of the fan in the radial direction of the fan is 90 ~ 99 of the outer diameter of the fan Since it is within%, the air flow between the fan and the diffuser can be stabilized without large loss, thereby improving the blowing efficiency and reducing the noise.

Description

Blower of Vacuum Cleaner

The present invention relates to a blower of a cleaner, and more particularly to a blower of a cleaner in which a feather of the fan is shorter than an outer diameter of a part of the fan in a height direction so that a distance between the fan and the diffuser is partially extended in the height direction of the fan. It is about.

Generally, as shown in FIG. 1, the cleaner is largely connected to the main body 2 and the suction device 4 which is connected to the suction port 2a of the main body 2 and sucks the cleaning material accumulated on the floor together with the air. Are distinguished. The main body 2 has a dust collecting chamber 6 for collecting the cleaning material sucked by the suction mechanism 4 and filtering the air therethrough, and the cleaning material together with the air through the suction mechanism 4. (2) a blower (10) for generating a suction force so as to be sucked into the inside, and a discharge port (2b) for discharging the air passing through the blower (10) to the outside is formed in the rear of the main body (2) .

Meanwhile, as illustrated in FIG. 2, the blower 10 according to the related art includes a fan housing 12 having a suction port 12a through which air is sucked in the front and an opening at the rear thereof, and the fan housing 12. A fan 14 rotatably installed inside the fan to blow the air by centrifugal force, and fixed at a predetermined distance (g) at a radial outer periphery of the fan 14 and blown from the fan 14 It consists of a diffuser (16) or the like to diffuse.

The fan housing 12 is connected to the motor housing 18 so that the air diffused from the diffuser 16 flows in the rear of the opening, and the fan 12 and the rotating shaft 19a are connected to the motor housing 18. It is connected to the built-in motor 19 for rotating the fan (14).

Looking at the operation of the vacuum cleaner centrifugal blower according to the prior art configured as described above are as follows.

First, when the motor 19 is driven, air is sucked into the fan housing 12 through the inlet 12a of the fan housing while the fan 14 connected to the motor 19 and the rotating shaft 19a is rotated. .

The air sucked into the fan housing 12 is blown axially to the fan 14 and then discharged to the outer circumference of the fan 14 by centrifugal force and diffused in the diffuser 16, and then the motor. Flows into the housing 18 to dissipate the motor 19.

However, the blower of the cleaner according to the prior art is the fan 14 because when the air is forced from the fan 14 to the diffuser 16, the fan 14 is rotated and the diffuser 16 is fixed. Air flow is disturbed between the fan 14 and the diffuser 16. If the distance g between the fan 14 and the diffuser 16 is wide, the air flow loss between the fan 14 and the diffuser 16 increases. Since the blow efficiency is greatly reduced, the distance G between the fan 14 and the diffuser 16 should be kept within 1 mm, and then the distance between the fan 14 and the diffuser 16 is very narrow so that the air flow is disturbed. There is a serious problem that the noise caused by the unpleasant.

The present invention has been made to solve the above problems of the prior art, while minimizing the air flow loss between the fan and the diffuser, the object of the present invention is to provide a blower of the cleaner that can reduce the noise caused by disturbance of the air flow have.

The blower of the cleaner according to the present invention for solving the above problems is provided with a plurality of vanes fan for blowing air by centrifugal force; It is installed at a radially outer circumference of the fan at a predetermined interval, and comprises a diffuser for diffusing the air blown from the fan,

In particular, the feather of the fan is characterized in that the portion formed in the height direction, shorter than the outer diameter of the fan in the radial direction from the center of the fan.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the blower of the cleaner according to the present invention is connected to the motor 50 and the rotating shaft 50a, and a plurality of vanes 51 are provided radially to radially circumscribe air by centrifugal force. The fan 52 which blows into the air, and the plurality of vanes 54a which are arrange | positioned at the radial outer periphery of the fan 52 at predetermined intervals Ga and Gb are diffused, and the air blown from the fan 52 is spread | diffused. It is configured to include a diffuser 54.

In particular, the feather 51 of the fan is formed in the height direction (arrow A) in a portion shorter than the outer diameter 52b of the fan in the radial direction (arrow R) at the center 52a of the fan.

In other words, only a portion Ga of the fan 51 in the height direction (arrow A) of the fan blade 51 and the gap Ga, Gb between the fan blade 51 and the diffuser 54 of the fan is the outer diameter 52b of the fan. ) And wider than the gap Gb between the diffuser 54. Then, even if the air discharged from the fan 52 does not flow directly between the vanes 54a of the diffuser 54 but is blocked by the vanes 54a of the diffuser 54, the fan 52 and the diffuser 54 are not. Some gaps Gb therebetween are extended and can be stabilized.

At this time, the fan 51 of the fan is centered 51a in the height direction (arrow A) of the fan 51 of the fan so that the flow of air is uniform between the fan 52 and the diffuser 54. It is formed symmetrically in the height direction (arrow A) of the feather 51 of the fan as a reference.

If the distance Ga and Gb between the fan 52 and the diffuser 54 are too wide, the flow loss of air between the fan 52 and the diffuser 54 greatly affects the blowing efficiency. The blade 51 of the fan is formed such that the minimum length Dmin in the radial direction (arrow R) of the fan is 90 to 99% of the outer diameter 52D of the fan at the center (not shown) of the fan.

Meanwhile, the fan 51 of the fan may be variously implemented as shown in FIG. 4.

In Fig. 4A, the fan blade 51 is gradually shortened in a straight line with a predetermined slope toward both ends 51b and 51c in the height direction (arrow A) of the fan blade 51 of the fan.

In Fig. 4 (b), the fan blade 51 of the fan is gradually shortened in a curve with a predetermined curvature toward both ends 51b and 51c in the height direction (arrow A) of the fan blade 51 of the fan.

In FIGS. 4A and 4B, the length of the fan blade 51 in the radial direction (arrow R) of the fan at the center 52a of the fan is the height direction of the blade blade 51 of the fan. Both ends 51b and 51c are the shortest (arrow A).

In Fig. 4C, the fan blade 51 is curved in a predetermined curvature from both ends 51b and 51c toward the center 51a in the height direction (arrow A) of the fan blade 51 of the fan. Gradually shortens.

In FIG. 4D, the fan blade 51 is a straight portion 51d gradually shortened by a straight line of predetermined inclination at both ends 51b and 51c in the height direction (arrow A) of the fan blade 51 of the fan. ) And a curved portion gradually connected to the linear portion 51d so as to be shortened to extend from the straight portion 51d to the center 51a in the height direction (arrow A) of the feather 51 of the fan. There is 51e.

In FIG. 4E, the fan blade 51 has a rectangular groove shape between the points 51f and 51c spaced apart from the ends 51b and 51c in the height direction (arrow A) of the fan blade 51 by the fan. Shorten.

In FIG. 4 (f), the fan blade 51 has a rectangular groove shape between the points 51f and 51c spaced apart from the ends 51b and 51c in the height direction (arrow A) of the fan blade 51 by the fan. And a portion 51h shortened by extending in a triangular groove shape from the portion 51g having a rectangular groove shape.

In (g) of FIG. 4, the fan 51 of the fan is partially incised between the points 51 i and 51c spaced apart from the ends 51b and 51c in the height direction (arrow A) of the fan 51 of the fan. It is shortened to elliptical groove shape.

In (c) to (g) of FIG. 4 as described above, the length of the collar 51 of the fan in the radial direction (arrow R) of the fan at the center 52a of the fan is equal to that of the collar 51 of the fan. It is the shortest in the center 51a in the height direction (arrow A).

And, in Fig. 4 (h), the fan 51 of the fan is between the ends 51b, 51c and the center 51a of the fan in the height direction (arrow A) of the fan 51 of the fan, respectively. It shortens to the peak groove shape 51j toward the center 52a. Here, the length of the fan blade 51 is the shortest at the peak apex 51k of the peak groove shape 51j in the radial direction (arrow R) of the fan at the center 52a of the fan.

The result of measuring the noise according to the shape of the feather 51 of the fan as described above is shown in Table 1 below. At this time, the fan blades 51 are nine, the outer diameter 52b of the fan is 95 mm, and the height 51H of the fan blade 51 of the fan is 8 mm at the outer circumference of the fan.

TABLE 1

Example Minimum length of the collar of the fan / outer diameter of the fan (%) Log sum of noise in full spectrum (dB (A)) Peak Noise (dB (A)) Conventional 100 92 84 (C) -1 of FIG. 93.7 88.6 68.6 (C) -2 of FIG. 96.8 89.1 71.1 (D) of FIG. 95 89.0 69.3 (E) of FIG. 95 89.1 82.5 (F) of FIG. 95 88.4 59.2 (G) of FIG. 95 89.5 70.0 (H) of FIG. 95 89.4 77.5

Table 1 shows that the noise is reduced when the distance between the fan blade 51 and the diffuser 54 of the fan is partially extended in the height direction (arrow A) of the fan blade 51 of the fan. Able to know.

On the other hand, Table 2 is a result of measuring the efficiency according to the present invention and the prior art. At this time, the present invention is experimented by forming the fan blade 51 so as to have a shape as shown in Fig. 5 (c) and the minimum length (Dmin) of the fan blade 51 of the fan is 93.7% of the outer diameter (52b) of the fan. It was.

TABLE 2

The present invention Prior art Power Consumption (W) 1311.4 1364 Suction power (W) 614.1 617.7 Suction power / power consumption, fan efficiency (%) 46.8 45.3

From Table 2, it can be seen that the present invention is not only superior in terms of noise than the prior art, but also increases the efficiency of the fan by 1.5%.

Looking at the operation of the present invention configured as described above are as follows.

When the fan 52 rotates, air is sucked into the center of the fan 52 and then discharged to the outer circumference of the fan 52 by centrifugal force. The air discharged from the fan 52 flows to the motor 50 while being diffused from the diffuser 54.

At this time, since a part of the gap Ga between the fan 52 and the diffuser 54 extends more than the gap Gb between the outer diameter 52b of the fan and the diffuser 54, the flow of air is increased. It can be stabilized without severely disturbing between the 52 and the diffuser 54.

The blower of the cleaner according to the present invention constituted as described above comprises a fan made of a plurality of feathers, and a diffuser path installed at a predetermined interval on a radially outer circumference of the fan, wherein the feather of the fan is in a height direction. There is a portion formed in the radial direction from the center of the fan shorter than the outer diameter of the fan, the feather of the fan is symmetrical in the height direction, the minimum length of the feather of the fan in the radial direction of the fan Since it is within 90 ~ 99% of the outer diameter can be stabilized without a large loss of air flow between the fan and the diffuser, there is an advantage that the blowing efficiency is improved and the noise can be reduced.

1 is a configuration diagram of a general cleaner,

Figure 2 is a cross-sectional view of the blower of the cleaner according to the prior art,

3 is a cross-sectional view of the blower of the cleaner according to the present invention;

4 is a view showing various shapes of the feather of the fan according to the present invention.

<Explanation of symbols on main parts of the drawings>

50: motor 51: fan feather

52: fan 54: diffuser

Claims (13)

A fan provided with a plurality of feathers to blow air by centrifugal force; In the blower of the cleaner, which is installed at a radially outer circumference of the fan at a predetermined interval, comprising a diffuser for diffusing the air blown from the fan, The blade of the fan is a blower of the cleaner, characterized in that part of the height is formed shorter than the outer diameter of the fan in the radial direction from the center of the fan. The method of claim 1, Blower of the cleaner, characterized in that the feather of the fan is gradually shortened toward both ends in the height direction. The method of claim 2, Blower of the cleaner, characterized in that the feather of the fan is gradually shortened in a straight line toward both ends in the height direction. The method of claim 2, Blower of the cleaner, characterized in that the feather of the fan is gradually shortened in a curve toward both ends in the height direction. The method of claim 1, Blower of the cleaner, characterized in that the feather of the fan is gradually shortened toward the center in the height direction. The method of claim 5, The blade of the fan is a blower of the cleaner, characterized in that gradually shorter in a curve toward the center from both ends in the height direction. The method of claim 5, The blade of the fan is a blower of the vacuum cleaner characterized in that there is a straight portion gradually shortened in a straight line at both ends in the height direction, and a curved portion gradually shortened in a curve to the center in the height direction connected to the straight portion. The method of claim 1, The blade of the fan is a blower of the vacuum cleaner, characterized in that between the points separated by a predetermined distance from both ends in the height direction in the shape of a square groove. The method of claim 8, The blade of the fan is a blower of the cleaner, characterized in that it further comprises a shortened portion extending from the square groove shape to a triangular groove shape. The method of claim 1, The blade of the fan is a blower of the vacuum cleaner, characterized in that shortened in the ellipse shape partially cut off between the predetermined distance from both ends in the height direction. The method of claim 1, The blade of the fan is a blower of the vacuum cleaner, characterized in that shortened in the shape of a peak groove toward the center of the fan, respectively, between both ends and the center in the height direction. The method according to any one of claims 1 to 11, Blower of the cleaner, characterized in that the feather of the fan is formed symmetrically in the height direction. The method according to any one of claims 1 to 11, The blade of the fan is a blower of the cleaner, characterized in that the minimum length in the radial direction of the fan is 90 to 99% of the outer diameter of the fan.